Canadian net forest CO2 uptake enhanced by heat-drought via reduced respiration

The response of net forest carbon uptake to warm extremes remains elusive. The year 2023 was at the time “the hottest year on record” globally, with Canada’s forests experiencing warm anomalies of above 2 °C and unprecedented drought and wildfires, providing a unique case to examine the response of boreal forest net carbon uptake to climate extremes. Here we combine satellite-based atmospheric CO2 flux inversions, and ground in-situ observations of CO2 fluxes and concentrations to investigate Canada’s forest net carbon uptake and its underlying mechanisms in 2023. We find that compared to 2015–2022, the Canada’s forest net carbon uptake was enhanced by 0.28 ± 0.23 PgC, offsetting 38–48% of Canadian wildfire emissions in 2023. This enhanced uptake was dominated by large ecosystem respiration reductions, mainly attributable to severe root zone soil moisture deficits and the unimodal temperature response of respiration. However, most dynamic global vegetation models failed to simulate the TER reductions and the responses to hydrothermal conditions well. This study improves our understanding of boreal forest carbon uptake in response to climate extremes and highlights an urgent need to improve vegetation models under global warming.